Hinge and mobile phone with the hinge
A mobile phone has a cover with a first bearing extending parallel with the cover, a body with a second bearing at a corner thereof and extending perpendicular thereto, and a hinge rotationally coupling the cover and the body. The hinge includes a crankshaft that has a transverse shaft and a vertical shaft extending perpendicularly from an end of the transverse shaft, a first cam assembly disposed on the transverse shaft, and a second cam assembly disposed on the vertical shaft. The first cam assembly together with the transverse shaft is retained by the first bearing to enable the cover to be rotatable relative to the body about a transverse axis. The second cam assembly together with the vertical shaft is retained by the second bearing to enable the cover to be rotatable relative to the body about a vertical axis. Thus the cover can be firstly rotated vertically 180 degrees about the transverse axis and then rotated horizontally 180 degrees about the vertical axis to a position where the cover is side by side with the body.
Latest Cheng Uei Precision Industry Co., Ltd. Patents:
1. Field of the Invention
The present invention generally relates to a hinge, and more particularly, to a hinge adapted to be used in a mobile phone and a mobile phone using the hinge.
2. The Related Art
At present, media mobile phones are popularized. A user can watch a video, play a game and surf Internet by the media mobile phone. In order to carry conveniently for the user, the size of the media mobile phone is often small. Therefore the size of the display panel of the media mobile phone is also small. This is inconvenient for the user to use.
In order to increase the size of the display panel and carry conveniently, a prior media mobile phone disclosed in Pub. No. US2004/0192422 by Watanable et al., published on Sep. 30, 2004, includes a cover and a base. A hinge connects the cover with the base pivotally for opening or closing the media mobile phone. Hence, when the media mobile phone is not in use, the cover is overlapped on the base for being carried conveniently. A display panel is arranged on the cover for increasing its size.
The hinge has a mount. A first traverse shaft and a second traverse shaft extend from opposite sides of the mount, and the two traverse shafts are connected with the cover. A perpendicular shaft extends from the mount perpendicular to the traverse shafts. A fixing seat is arranged on the middle section of one end of the base to support the perpendicular shaft. A flexible plate is wound around the perpendicular shaft, and one terminal of the flexible plate passes through the mount and one of the two traverse shafts in order, and then is assembled with the cover.
The cover of the media mobile phone can be rotated a certain angle around the two traverse shafts to deform the flexible plate, and the cover can also be rotated 180 degree around center axis of the perpendicular shaft after the cover being rotated around the two traverse shafts. After the cover is rotated 180 degree around the center axis of the perpendicular shaft, the flexible plate restores elastically to urge the cover to overlap on the base.
According to the forgoing description, therefore, the assembly of the hinge is complicated. Furthermore, with the structure that the traverse shafts extend from opposites sides of the mount and the perpendicular shaft thus can only be fixed in the middle of one end of the base, as a result, the cover can only be stacked on the base, but can not be opened side by side with the base.
SUMMARY OF THE INVENTIONAccording to an aspect of the present invention, a hinge which is adapted for rotationally coupling a cover and a body of a mobile phone is provided. The hinge comprises a crankshaft, a first cam assembly, and a second cam assembly. The crankshaft has a transverse shaft and a vertical shaft extending perpendicularly from an end of the transverse shaft. The transverse shaft has a first keyed surface. The vertical shaft has a second keyed surface. The first cam assembly comprises a first cannular cam, a first cannular cam follower, and a first resilient means, all of which are disposed on the transverse shaft in order. The first cam assembly together with the transverse shaft is assembled with the cover. The first cannular cam has a third keyed surface on an outer wall thereof so as to be keyed to the cover. The first cannular cam follower has a fourth keyed surface on an inner wall thereof to engage with the first keyed surface, thereby keying the first cannular cam follower to the transverse shaft. The first resilient means resiliently biases the first cannular cam and the first cannular cam follower into engagement. The second cam assembly comprises a second cannular cam, a second cannular cam follower, and a second resilient means, all of which are disposed on the vertical shaft in order. The second cannular cam is fixed to the body. The second cannular cam follower has a fifth keyed surface on an inner wall thereof to engage with the second keyed surface, thereby keying the second cannular cam follower to the vertical shaft. The second resilient means resiliently biases the second cannular cam and the second cannular cam follower into engagement.
According to another aspect of the present invention, a mobile phone with a hinge is provided. The mobile phone comprises a cover with a first display panel thereon and a body. The hinge rotationally couples the cover and the body. The cover has a first bearing that defines a first cavity therein extending parallel with the first display panel. The body has a second bearing at a corner thereof that defines a second cavity therein extending perpendicular to the body. The hinge comprises a crankshaft, a first cam assembly, and a second cam assembly. The crankshaft has a transverse shaft and a vertical shaft extending perpendicularly from an end of the transverse shaft. The transverse shaft has a first keyed surface. The vertical shaft has a second keyed surface. The first cam assembly comprises a first cannular cam, a first cannular cam follower, and a first resilient means, all of which are disposed on the transverse shaft in order. The first cam assembly together with the transverse shaft is retained by the first cavity of the cover. The first cannular cam has a third keyed surface on an outer wall thereof so as to be keyed to the first cavity. The first cannular cam follower has a fourth keyed surface on an inner wall thereof to engage with the first keyed surface, thereby keying the first cannular cam follower to the transverse shaft. The first resilient means resiliently biases the first cannular cam and the first cannular cam follower into engagement. The second cam assembly comprises a second cannular cam, a second cannular cam follower, and a second resilient means, all of which are disposed on the vertical shaft in order. The second cam assembly together with the vertical shaft is retained by the second cavity of the body. The second cannular cam is fixed to the body. The second cannular cam follower has a fifth keyed surface on an inner wall thereof to engage with the second keyed surface, thereby keying the second cannular cam follower to the vertical shaft. The second resilient means resiliently biases the second cannular cam and the second cannular cam follower into engagement.
According to the invention there is no winding operation to assemble the hinge, but disposing the first and second cam assemblies on the crankshaft respectively. Therefore, the hinge is simple to assemble.
The first cam assembly and the transverse shaft enable the cover to be rotatable about a transverse axis. The second cam assembly and the vertical shaft enable the cover to be rotatable about a vertical axis. Due to the second cam assembly and the vertical shaft being assembled with the body at a corner thereof, the cover can be opened side by side with the body.
Other objects, advantages and novel features of the invention will become more apparent from the following detailed description of a preferred embodiment thereof when taken in conjunction with the accompanying drawings, wherein:
With reference to
Referring to
The vertical shaft 122 forms a second pedestal 123 at an end thereof joining to the transverse shaft 112 with a diameter larger than the diameter of the vertical shaft 122. Outer wall of the vertical shaft 122 is partially cut to form a pair of second keyed surfaces 125 at a left and an opposite right sides thereof and parallel with the axis of the vertical shaft 122. A second groove 126 is defined in and around the vertical shaft 122 at an opposite end opposite to the second pedestal 123.
The first cam assembly 130 comprises a first cannular cam 131, a first cannular cam follower 132, a first resilient means 133, and a first positioning spacer 139. The first positioning spacer 139 is C-shaped. The first cannular cam 131 has an outer wall 131A. The outer wall 131A is partially cut to form a pair of third keyed surfaces 134 parallel with the axis of the first cannular cam 131. At one side of the first cannular cam 131 is a first cam profile 135, while a first flat surface 136A is at the other side opposite to the first cam profile 135. The first cannular cam follower 132 has an inner wall 132A with a pair of fourth keyed surfaces 137 formed thereon for mating with the first keyed surfaces 115 of the transverse shaft 112. At one side of the first cannular cam follower 132 is a first complementary cam profile 138, while at its opposite side is a second flat surface 136B. Preferably, the first resilient means 133 is a coiled spring. During assembly the first resilient means 133 is disposed on the transverse shaft 112 first, followed by the first cannular cam follower 132 and the first cannular cam 131. Finally, the first positioning spacer 139 is wedged in the first groove 116 of the transverse shaft 112 and propped against the first flat surface 136A of the first cannular cam follower 132, thereby positioning the first cannular cam 131, the first cannular cam follower 132 and the first resilient means 133 between the first pedestal 113 and the first positioning spacer 139. After assembly, the first cam profile 135 rests against the first complementary cam profile 138. The first resilient means 133 makes contact throughout the first pedestal 113 and the second flat surface 136B of the first cannular cam follower 132 to distribute axial forces thereon to resiliently bias the first cannular cam follower 132 and the first cannular cam 131 into engagement.
After assembly, the first cannular cam 131 is keyed to a cover of a mobile phone by the third keyed surfaces 134 as will be described in greater detail hereinafter. As a result, the first cannular cam 131 rotates with the cover and rotationally urges the first complementary cam profile 138 of the first cannular cam follower 132. The fourth keyed surfaces 137 of the first cannular cam follower 132 key to the first keyed surfaces 115 of the transverse shaft 112, which restricts the first cannular cam follower 132 from rotation, while allows the first cannular cam follower 132 to axially slide on the transverse shaft 112 in response to compressive forces of the first resilient means 133 or urging forces of the first cannular cam 131.
The second cam assembly 140 comprises a ring spacer 141, a second resilient means 142, a second cannular cam 143, a second cannular cam follower 144, a bearing gasket 145, and a second positioning spacer 146. The second positioning spacer 146 is C-shaped. At one side of the second cannular cam 143 is a second cam profile 143A, while a third flat surface 143B is at the other side opposite to the second cam profile 143A. The second cannular cam 143 forms a pair of mounting legs 143D for being fixed to a body of the mobile phone as will be described in greater detail hereinafter. The second cannular cam follower 144 has an inner wall 144A with a pair of fifth keyed surfaces 144B formed thereon for mating with the second keyed surfaces 115 of the vertical shaft 122. At one side of the second cannular cam follower 144 is a second complementary cam profile 144C, while at its opposite side is a fourth flat surface 144D. Preferably, the second resilient means 142 includes a pair of resilient spacers 142A, 142B, one of which is dome-shaped, and the other of which is inverted dome-shaped. The resilient spacers 142A, 142B with such shapes are deformable to provide compressive forces. During assembly the ring spacer 141, the second resilient means 142, the second cannular cam follower 144, the second cannular cam 143, and the bearing gasket 145 are disposed on the vertical shaft 122 in order. Finally, the second positioning spacer 146 is wedged in the second groove 126 of the vertical shaft 112 and propped against the third flat surface 143B of the second cannular cam follower 143 together with the bearing gasket 145, thereby positioning the second cannular cam 143, the second cannular cam follower 144, the second resilient means 142 and the ring spacer 141 between the second pedestal 123 and the second positioning spacer 146. After assembly, the second cam profile 143A rests against the second complementary cam profile 144C. The ring spacer 141 makes contact throughout the second pedestal 123, and the second resilient means 142 makes contact throughout the ring spacer 141 and the fourth flat surface 144D of the second cannular cam follower 144 to distribute axial forces thereon to resiliently bias the second cannular cam follower 144 and the second cannular cam 143 into engagement.
After assembly, the fifth keyed surfaces 144B of the second cannular cam follower 144 key to the second keyed surfaces 125 of the vertical shaft 122, which allows the second cannular cam follower 144 to rotate with the vertical shaft 122 and to axially slide on the vertical shaft 122 in response to compressive forces of the second resilient means 142.
Referring to
Referring to
Referring to
Referring to
To open the cover 200, the cover 200 is firstly rotated vertically 180 degrees about the transverse axis to a position where the cover 200 is coplanar with the body 300 as shown in
The foregoing description of the present invention has been presented for purposes of illustration and description. It is not intended to be exhaustive or to limit the invention to the precise form disclosed, and obviously many modifications and variations are possible in light of the above teaching. Such modifications and variations that may be apparent to a person skilled in the art are intended to be included within the scope of this invention as defined by the accompanying claims.
Claims
1. A hinge adapted for rotationally coupling a cover and a body of a mobile phone about two perpendicular axes comprising:
- a crankshaft having a transverse shaft and a vertical shaft extending perpendicularly from an end of the transverse shaft, the transverse shaft having a first keyed surface, the vertical shaft having a second keyed surface;
- a first cam assembly disposed on the transverse shaft, the first cam assembly together with the transverse shaft being adapted to be assembled with said cover, the first cam assembly comprising: a first cannular cam disposed on the transverse shaft, the first cannular cam having a third keyed surface on an outer wall thereof so as to be keyed to said cover; a first cannular cam follower having a fourth keyed surface on an inner wall thereof, the first cannular cam follower being disposed on and keyed to the transverse shaft with the fourth keyed surface engaging with the first keyed surface; and a first resilient means disposed on the transverse shaft for resiliently biasing the first cannular cam and the first cannular cam follower into engagement; and
- a second cam assembly disposed on the vertical shaft, the second cam assembly together with the vertical shaft being adapted to be assembled with said body, the second cam assembly comprising: a second cannular cam disposed on the vertical shaft and fixed to said body; a second cannular cam follower having a fifth keyed surface on an inner wall thereof, the second cannular cam follower being disposed on and keyed to the vertical shaft with the fifth keyed surface engaging with the second keyed surface; and a second resilient means disposed on the vertical shaft for resiliently biasing the second cannular cam and the second cannular cam follower into engagement.
2. The hinge as claimed in claim 1, wherein the transverse shaft further has a first pedestal at the end joining to the vertical shaft, and the first resilient means is disposed between the first pedestal and the first cannular cam follower.
3. The hinge as claimed in claim 2, wherein the transverse shaft further has a first groove there-around at the end opposite to the first pedestal, and a first positioning spacer is wedged in the first groove and prop against the first cannular cam.
4. The hinge as claimed in claim 1, wherein the first resilient means is a spring.
5. The hinge as claimed in claim 1, wherein the vertical shaft further has a second pedestal at the end joining to the transverse shaft, a ring spacer and the second resilient means are disposed between the second pedestal and the second cannular cam follower.
6. The hinge as claimed in claim 5, wherein the vertical shaft further has a second groove there-around at the end opposite to the second pedestal, and a second positioning spacer is wedged in the second groove and prop against the second cannular cam.
7. The hinge as claimed in claim 1, wherein the second resilient means comprises a pair of resilient spacers.
8. A mobile phone comprising:
- a cover having a first display panel and a first bearing, the first bearing defining a first cavity therein extending parallel with the first display panel;
- a body having a second bearing at a corner thereof, the second bearing defining a second cavity therein extending perpendicular to the body; and
- a hinge rotationally coupling the cover and the body, the hinge comprising: a crankshaft having a transverse shaft and a vertical shaft extending perpendicularly from an end of the transverse shaft, the transverse shaft having a first keyed surface, the vertical shaft having a second keyed surface; a first cam assembly disposed on the transverse shaft, the first cam assembly together with the transverse shaft being retained by the first cavity of the cover, the first cam assembly including: a first cannular cam having a third keyed surface on an outer wall thereof, the first cannular cam being disposed on the transverse shaft and keyed to the first cavity; a first cannular cam follower having a fourth keyed surface on an inner wall thereof, the first cannular cam follower being disposed on and keyed to the transverse shaft with the fourth keyed surface engaging with the first keyed surface; and a first resilient means disposed on the transverse shaft for resiliently biasing the first cannular cam and the first cannular cam follower into engagement; and
- a second cam assembly disposed on the vertical shaft, the second cam assembly together with the vertical shaft being retained by the second cavity of the body, the second cam assembly including: a second cannular cam disposed on the vertical shaft and fixed to the body; a second cannular cam follower having a fifth keyed surface on an inner wall thereof, the second cannular cam follower being disposed on and keyed to the vertical shaft with the fifth keyed surface engaging with the second keyed surface; and a second resilient means disposed on the vertical shaft for resiliently biasing the second cannular cam and the second cannular cam follower into engagement.
9. The mobile phone as claimed in claim 8, wherein the body further has a second display panel thereon.
10. The mobile phone as claimed in claim 8, wherein the second cannular cam further has a pair of mounting legs for fixing the second cannular cam to the body.
11. The mobile phone as claimed in claim 8, wherein the first resilient means is a spring.
12. The mobile phone as claimed in claim 8, wherein the second resilient means comprises a pair of resilient spacers.
5841635 | November 24, 1998 | Sadler et al. |
7055219 | June 6, 2006 | Shiba |
7184805 | February 27, 2007 | Cho et al. |
7346375 | March 18, 2008 | Sato et al. |
20030040288 | February 27, 2003 | Kang et al. |
20040192422 | September 30, 2004 | Watanabe |
20040202316 | October 14, 2004 | Abe et al. |
20050046726 | March 3, 2005 | Hojo et al. |
20050208984 | September 22, 2005 | Tang |
20060048338 | March 9, 2006 | Lowry et al. |
20060111160 | May 25, 2006 | Lin et al. |
20060135225 | June 22, 2006 | Lin et al. |
20070060216 | March 15, 2007 | Huang et al. |
Type: Grant
Filed: Aug 9, 2005
Date of Patent: Jul 29, 2008
Patent Publication Number: 20070037616
Assignee: Cheng Uei Precision Industry Co., Ltd. (Taipei Hsien)
Inventor: Kuo-Wei Hung (Tu-Cheng)
Primary Examiner: Dwayne Bost
Assistant Examiner: Huy D Nguyen
Application Number: 11/200,429
International Classification: H04M 1/00 (20060101);